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Tellus B: Chemical and Physical Meteorology Volume 42, 1990 - Issue 2
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Original Articles

Surface-active monolayers, bubbles, and jet drops

Duncan C. BlanchardAtmospheric Sciences Research Center, State University of New York at Albany, Albany, NY12222, USA
Pages 200-205 | Received 28 Nov 1988, Accepted 22 Mar 1989, Published online: 18 Jan 2017

References

  • Baldy, S. 1988. Bubbles in the close vicinity of breaking waves: statistical characteristics of the generation and dispersion mechanism. J. Geophys. Res. 93, 8239–8248.
  • Barger, W. R., Daniel, W. H. and Garrett, W. D. 1974. Surface chemical properties of banded sea slicks. Deep-Sea Res. 21, 83–89.
  • Blanchard, D. C. 1963. The electrification of the atmosphere by particles from bubbles in the sea. Frog. Oceanog. I, 71–202.
  • Blanchard, D. C. 1975. Bubble scavenging and the water-to-air transfer of organic material in the sea. In: Applied chemistry at protein interfaces (ed. R. Baier). Adv. Chem. Series 45, 360–387.
  • Blanchard, D. C. 1983. The production, distribution, and bacterial enrichment of the sea-salt aerosol. In: The air-sea exchange of gases and particles (eds. P. S. Liss and W. G. N. Slinn). Dordrecht: D. Reidel Pub. Co., 407–454.
  • Blanchard, D. C. and Hoffman, E. J. 1978. Control of jet-drop dynamics by organic material in seawater. J. Geophys. Res. 83, 6187–6191.
  • Burger, S. R. and Blanchard, D. C. 1983. The persist-ence of air bubbles at a seawater surface. J. Geophys. Res. 88, 7724–7726.
  • Cipriano, R. J. and Blanchard, D. C. 1981. Bubble and aerosol spectra produced by a laboratory “breaking wave”. J. Geophys. Res. 86, 8085–8092.
  • Detwiler, A. and Blanchard, D. C. 1978. Aging and bursting bubbles in trace-contaminated water. Chem. Engr. Sci. 33, 9–13.
  • Faller, A. J. and Caponi, E. A. 1978. Laboratory studies of wind-driven Langmuir circulations. J. Geophys. Res. 83, 3617–3633.
  • Gaines, G. L., Jr. 1966. Insoluble monolayers at liquid-gas interfaces. Chichester: John Wiley & Sons, Inc., 386 pp.
  • Garrett, W. D. 1967a. Damping of capillary waves at the air-sea interface by oceanic surface-active material. J. Mar. Res. 25, 279–291.
  • Garrett, W. D. 1967b. Stabilization of air bubbles at the air-sea interface by surface-active material. Deep-Sea Res. 14, 661–672.
  • Garrett, W. D. 1968. The influence of monomolecular surface films on the production of condensation nuclei from bubbled sea water. J. Geophys. Res. 73, 5145–5150.
  • Gluhosky, P. A. 1983. An investigation of bubble surface life and top drop ejection height for large bubbles, 1-8 mm diameter. Master's Thesis, State University of New York at Albany.
  • Hoffman, E. J. and Duce, R. A. 1976. Factors influ-encing the organic carbon content of marine aerosols: a laboratory study. J. Geophys. Res. 81, 3667–3670.
  • Kientzler, C. F., Arons, A. B., Blanchard, D. C. and Woodcock, A. H. 1954. Photographic investigation of the projection of droplets by bubbles bursting at a water surface. Tellus 6, 1–7.
  • Langmuir, I. 1938. Surface motion of water induced by wind. Science 87, 119–123.
  • Paterson, M. P. and Spillane, K. T. 1969. Surface films and the production of sea-salt aerosol. Quart. J. R. Met. Soc. 95, 526–534.
  • Struthwolf, M. and Blanchard, D. C. 1984. The resi-dence time of air bubbles 400 pm diameter at the surface of distilled water and seawater. Tellus 36B, 294–299.
  • Stuhlman, O. 1932. The mechanics of effervescence. Physics 2, 457–466.
  • Woodcock, A. H., Kientzler, C. F., Arons, A. B. and Blanchard, D. C. 1953. Giant condensation nuclei from bursting bubbles. Nature 172, 1144.

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